处理双方请求的处理器核心的时钟速度。
Clock speed of the processor cores handling the request on both sides.
波特率会对CPU时钟速度产生限制。
There are constraints on the CPU clock speed related to the baud rate.
如果你仅仅参照微处理器芯片的时钟速度,你可能会这么想。
If you looked only at the clock speeds of microprocessor chips, you might well think so.
除时钟速度外,处理器使用的技术也会影响性能。
Besides the clock speed, the technology used in a processor can affect performance.
我宁愿买920,和水冷却,以达到最大时钟速度。
I would rather buy 920, and water cool it to achieve maximum clock speed.
鉴于目前的时钟速度的情况,这是一个很困难的现实。
Given the current clock speed situation, that's a tough reality.
时钟速度的这种缩放可以控制系统在未全力运行时消耗较少电能。
This dynamic scaling of the clock speed gives some control in throttling the system to consume less power when not operating at full capacity.
尽管不同处理器架构间的时钟速度没有可比性,但是它使得安腾处于劣势。
While clock speeds cannot be directly compared between different processor architectures, it does make the Itanium look bad.
所以他们放弃了表现不仅通过降低时钟速度,而且还缩短了二级缓存。
So they dropped the performance not only by reducing the clock rate, but also by truncating the L2 cache.
时钟速度进步允许单一线软件只是一次又一次而且再一次创下记录基点。
That clock speed improvement allows single thread software to simply make record benchmarks again and again and again.
显然,费米的实际性能上的优势将是双精度性能-如果它击中的时钟速度。
It is clear that Fermi's real performance advantage would be Double Precision performance - had it hit the right clock speeds.
当处理器以较低的时钟速度运行时,它们消耗的电能和产生的热量也相对较少。
When processors operate at a lower clock speed, they consume proportionately less power and generate less heat.
典型的机器属性包括内存总量、CPU类型、CPU时钟速度以及当前的负载。
Some typical machine attributes include the amount of memory, the CPU type, the CPU clock speed, and current load.
除了处理器时钟速度外,另一个重要的处理器性能度量是每条指令的时钟周期(CPI)。
In addition to processor clock speed, another important processor performance metric is clock cycles per instruction (CPI).
顾名思义,此调控器的目标的通过将处理器时钟速度设置为最大级别而实现最大的系统性能。
As the name implies, this governor's goal is to get the maximum performance out of a system by setting the processor clock speed to the maximum level and leaving it there.
典型的机器属性包括内存数量、CPU类型、CPU时钟速度以及当前的机器负载。
Some typical machine attributes include the amount of memory, CPU type, CPU clock speed, and current machine load.
而TurboBoost技术可以让CPU的时钟速度是动态的需求增加时所需。
The Turbo Boost technology allows CPU clock speed to be dynamically increased on demand when required.
数据传输FIFO的,地点为发送时钟使用的传输速率地址指针在发送时钟速度递增。
Data is transmitted out of the FIFO at a transmit clock rate using a transmit address pointer incremented at the transmit clock rate.
砷化镓启动的速度是硅的10倍,突然,我得到了10倍快的时钟速度,但是设计没有发生任何改变。
Gallium arsenide switches ten times faster than silicon all of a sudden, I've got a clock speed ten times faster with no change in design.
编号的,它反映了不同的特色,如光滑的雕刻,金额内存高速缓存,频率巴士的要求,或者时钟速度。
The numbered, it reflects various characteristics such as smoothness of engraving, the amount of memory cache, frequency of buses required, or clock speed.
平行的挑战正在变成非常重要的挑战,特别地当微处理器的时钟速度将会不在以它过去做的比率增加。
The challenge of parallelism is becoming a very important challenge, particularly as the clock speed of the microprocessor won't be increasing at the rates that it did in the past.
最后,通过多路传送被传输到总线的扫描链数据,可以提高输送扫描链数据到DUT管脚的总线的时钟速度。
Lastly, the clock speed of the bus feeding scan chain data to the pins of the DUT is increased by multiplexing the scan chain data being transferred to the bus.
随着处理器时钟速度的提高和处理器数量的增加,使用这种额外处理能力所需的内存滞后时间越来越难以减少。
As clock speed and the number of processors increase, it becomes increasingly difficult to reduce the memory latency required to use this additional processing power.
多年来,处理器制造厂商在不断提高时钟速度和指令级并行性,因此单线程代码不需要修改就可在新的处理器上更快运行。
For years, processor makers consistently delivered increases in clock rates and instruction-level parallelism, so that single-threaded code executed faster on newer processors with no modification.
溢和下溢是通过存储在避免使用一个接收地址指针在接收时钟速度递增不同的地址在接收到的数据的FIFO。
Overflow and underflow are averted by storing received data in a FIFO at different addresses using a receive address pointer incremented at a receive clock rate.
最后,英特尔计划使其全线产品加快向多核体系结构转换,同时业内分析人士期望处理器时钟速度可以在未来几年内趋于平稳。
Finally, Intel has plans to quickly transition to multi-core architecture across all of its product lines and most industry watchers expect processor clock speeds to level off in the years ahead.
虽然它的四核心“上海”Opteron处理器达到了2.3GHz的最高频率,六核心部分不得不放弃一些时钟速度,降低到1.8GHz,以管理六核热负荷。
While its quad-core "Shanghai" Opterons reached a maximum frequency of 2.3GHz, the six-core part had to give up some clock speed, down to 1.8GHz, to manage the thermal load for six cores.
虽然它的四核心“上海”Opteron处理器达到了2.3GHz的最高频率,六核心部分不得不放弃一些时钟速度,降低到1.8GHz,以管理六核热负荷。
While its quad-core "Shanghai" Opterons reached a maximum frequency of 2.3GHz, the six-core part had to give up some clock speed, down to 1.8GHz, to manage the thermal load for six cores.
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